首页|期刊导航|石油与天然气地质|西秦岭合作地区上二叠统毛毛隆组碎屑流型海底扇发育特征及成因机制

西秦岭合作地区上二叠统毛毛隆组碎屑流型海底扇发育特征及成因机制OA

Development characteristics and genetic mechanisms of a debris flow-dominated submarine fan in the Upper Permian Maomaolong Formation,Hezuo region,Western Qinling Orogenic Belt

中文摘要英文摘要

碎屑流型海底扇是深水重力流沉积体系中的重要类型之一,是深水油气勘探和海底地质灾害预测的重要研究对象.西秦岭合作地区上二叠统毛毛隆组出露良好的典型碎屑流型海底扇沉积,是研究晚二叠世深海沉积记录的理想窗口.以劳娄底及侧沟剖面为例,综合高分辨率三维实景露头模型、野外宏观沉积学与室内微观组构分析,系统揭示了该海底扇的发育特征与成因机制.研究结果表明:①西秦岭合作地区上二叠统毛毛隆组可划分为7种岩相,包括2种砾岩相、4种砂岩相及1种泥岩相.重力流沉积类型包括黏性碎屑流沉积、粗粒混合事件层及高密度浊流沉积.其中,黏性碎屑流沉积又可分为中-低强度黏性沉积和高强度黏性沉积两大类,粗粒混合事件层为中-低强度黏性碎屑流流体转换产物.②研究区毛毛隆组重力流扇体多呈席状或板状展布,以朵叶体沉积为主导,水道欠发育或不发育.基于事件层厚度、砂/地比及岩相组合,可将其进一步划分为朵叶体近端和远端2种构型单元.③西秦岭合作地区碎屑流型海底扇形成于"狭窄陆架-陡峭斜坡-深海盆地"的地貌格局,同时受控于斜坡失稳和陆架环流改造的复合输运机制.该类型海底扇具有"多种类型碎屑流沉积占主导、复合流体转换产物共存"的特征,空间相变快、非均质性强,对深水重力流油气储层预测和构型表征具有重要参考价值.

Debris flow-dominated submarine fans are a critical type of deep-water gravity-flow deposits and constitute a key research target for deep-water hydrocarbon exploration and submarine geohazard assessment.The Upper Permian Maomaolong Formation in the Hezuo region of the Western Qinling Orogenic belt contains well-preserved outcrops of typical debris flow-dominated submarine fan deposits,which record the Late Permian deep-marine sedimentation events.This study focused on the Laoloudi and Cegou sections.Integrating high-resolution three-dimensional(3D)digital outcrop models,field sedimentological investigation,and petrographic microscope analysis in laboratory,we reveal the development characteristics and genetic mechanisms of submarine fans.As indicated by the research results,the Upper Permian Maomaolong Formation in the Hezuo region of the Western Qinling Orogenic belt was divided into seven lithofacies,including two conglomerate lithofacies,four sandstone lithofacies,and one mudstone lithofacies.The gravity-flow deposits include cohesive debris-flow deposits,coarse-grained hybrid event beds,and high-density turbidites.The cohesive debris-flow deposits,among others,were further subdivided into moderate-to low-strength and high-strength cohesive deposits,whereas the coarse-grained hybrid event beds represented the products of fluid transformation from moderate-to low-strength cohesive debris flows.However,the gravity-flow fan bodies in the Maomaolong Formation exhibit sheet-like or tabular geometries and were dominated by lobe deposits,with channels being poorly developed or absent.Based on event-bed thickness,sandstone ratios,and lithofacies associations,the lobe system was further classified into two architectural units:proximal and distal lobes.Furthermore,the debris flow-dominated submarine fan in the Hezuo region is developed in a paleogeomorphic framework of"narrow shelf-steep slope-deep basin",while controlled by a composite transport mechanism involving slope instability and shelf-current reworking.This submarine fan type is characterized by the dominance of multi-type debris-flow deposits and the coexistence of composite flow-transformation products,exhibiting rapid lateral facies transitions and pronounced heterogeneity.These findings provide important insights for the prediction and architectural characterization of deep-water gravity-flow hydrocarbon reservoirs.

袁赛赛;谈明轩;朱宇航;孙浩南;王新烁

河海大学 海洋学院,江苏 南京 210098河海大学 海洋学院,江苏 南京 210098河海大学 海洋学院,江苏 南京 210098河海大学 海洋学院,江苏 南京 210098河海大学 海洋学院,江苏 南京 210098

能源科技

成因机制流体转换混合事件层海底扇水下碎屑流重力流沉积毛毛隆组西秦岭构造带

genetic mechanismflow transformationhybrid event bedsubmarine fansubaqueous debris flowgravity-flow depositsMaomaolong FormationWestern Qinling Orogenic Belt

《石油与天然气地质》 2026 (3)

1002-1017,16

国家自然科学基金项目(42372118,42002117).

10.11743/ogg20260319

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